Switch From a Traditional Hybridization Buffer to ULTRAhyb

If Using a Traditional Hybridization Buffer, Switch From DNA to RNA Probes

RNA probes are more sensitive than DNA probes when using traditional hybridization buffer. ULTRAhyb® Ultrasensitive Hybridization Buffer, however, substantially increases the sensitivity of DNA probes making them as sensitive as RNA probes.

Alkaline transfer nicks the RNA, increasing sensitivity by more efficiently moving RNA, especially larger transcripts, from the gel to the membrane. Downward transfer does not crush the gel and makes use of gravity to speed up the process. (Ambion’s NorthernMax® Kits include reagents for alkaline transfer.)

Use an Optimal Hybridization Temperature

Temperatures of 42°C for DNA probes and 68°C for RNA probes usually give excellent results in 50% formamide-based hybridization buffers. Hybridization conditions for probes that have an unusually high GC or AT content or probes with a high degree of mismatch with the target should be determined empirically.

Use Freshly Synthesized Radiolabeled Probes

High specific activity probes degrade rapidly due to autoradiolysis, resulting in low signal and/or high background.

Use High Specific Activity Probes

The specific activity of the probe should be at least 108 cpm/µg and preferably > 109 cpm/µg.

Increase Exposure Time

Low copy number RNAs can take more than 3 days to show up using 32P-labeled probes at –70°C with intensifying screens.

Follow the Manufacturer’s Recommendations to Crosslink the RNA to the Membrane

It is possible to over or under crosslink the RNA by not using the proper procedure.